Increased centrosome amplification in aged stem cells of the Drosophila midgut

Age-related changes in long-lived tissue-resident stem cells may be tightly linked to aging and age-related diseases such as cancer. Centrosomes play key roles in cell proliferation, differentiation and migration. Supernumerary centrosomes are known to be an early event in tumorigenesis and senescence. However, the age-related changes of centrosome duplication in tissue-resident stem cells in vivo remain unknown. Here, using anti-γ-tubulin and anti-PH3, we analyzed mitotic intestinal stem cells with supernumerary centrosomes in the adult Drosophila midgut, which may be a versatile model system for stem cell biology. The results showed increased centrosome amplification in intestinal stem cells of aged and oxidatively stressed Drosophila midguts. Increased centrosome amplification was detected by overexpression of PVR, EGFR, and AKT in intestinal stem cells/enteroblasts, known to mimic age-related changes including hyperproliferation of intestinal stem cells and hyperplasia in the midgut. Our data show the first direct evidence for the age-related increase of centrosome amplification in intestinal stem cells and suggest that the Drosophila midgut is an excellent model for studying molecular mechanisms underlying centrosome amplification in aging adult stem cells in vivo.     

The first stage larva of brugia pahangi in Aedes togoi: An ultrastructural study

Lehane M. J. 1978. The first stage larva of Brugi pahangi in Aedes togoi: an ultrastructural study. International Journal for Parasitology8: 207–218. The ultrastructure of the first stage larva in the mosquito is described up to the onset of the first cuticular moult. The following structural changes from the microfilarial stage have been noted at this time; the numbers of muscle cells have increased, usually to four with a maximum of six in each intercordai quadrant ; part of the pharyngeal thread has formed into a knot ; the intestinal lumen has developed and is surrounded in any given transverse section by up to four intestinal cells and the inner body has largely been lost; the anal apparatus has enlarged and developed; the excretory apparatus has largely degenerated. The functional morphology of the various organ systems described is discussed.     

Early Trichinella spiralis and Trichinella nativa infections induce similar gene expression profiles in rat jejunal mucosa

Trichinella spiralis causes a significantly higher parasite burden in rat muscle than Trichinella nativa. To assess whether the difference in infectivity is due to the early intestinal response, we analyzed gene expression changes in the rat jejunum during Trichinella infection with a whole-genome microarray. The rats were euthanized on day five of infection, and their jejunal mucosa was sampled for microarray analysis. In addition, intestinal histology and hematology were examined. Against our expectations, the gene expression changes were similar in both T.nativa- and T. spiralis-infected groups. The two groups were hence pooled, and in the combined Trichinella-infected group, 551 genes were overexpressed and 427 underexpressed when compared to controls (false discovery rate ?0.001 and fold change at least 2 in either direction). Pathway analysis identified seven pathways significantly associated with Trichinella infection (p < 0.05). The microarray data suggested nonspecific damage and an inflammatory response in the jejunal mucosa. Histological findings, including hyperemia, hemorrhage and a marked infiltration of inflammatory cells, supported the microarray data. Trichinella infection caused complex gene expression changes that indicate a host response to tissue damage in the mucosa of the jejunum, but the changes were not notably dependent on the studied species of Trichinella.     

Eimeria meleagrimitis, E. adenoeides, and E. dispersa: Severity of infection and changes in the intestinal mucosa of the Turkey

Glucose and methionine were malabsorbed in some intestinal regions of turkeys infected with Eimeria meleagrimitis, E. adenoeides, or E. dispersa. The decrease in absorption was not always related to the numbers of parasites in the cells or the extent of damage to the mucosa. With E. adenoeides, malabsorption was found in the jejunum even though parasites were not present. Conversely, with E. dispersa, no malabsorption was observed in the duodenum even though light microscopy showed numerous parasites. In many intestinal regions, damage to the mucosal surface visible with scanning electron microscopy (SEM) was slight or absent, although malabsorption was marked. No changes were noted with SEM in the structure and orientation of the brush border in these regions. Villar height was significantly reduced in the regions of heaviest infection when intestinal damage was visible. Conversely, the crypts of Lieberkühn were often two or three times as deep in infected poults as in uninfected poults. In general, no differences were found in the thickness of the circular and longitudinal muscle layers between the infected and uninfected poults. The dry weight of the intestinal tissue was less from infected poults than from uninoculated controls and was related to both region of the intestine and severity of the infection.     

dl-Buthionine-S,R-sulfoximine affects intestinal alkaline phosphatase activity

The susceptibility of intestinal alkaline phosphatase to dl-buthionine-S,R-sulfoximine was investigated in chicks fed a commercial diet. The results show that dl-buthionine-S,R-sulfoximine produced inhibition of intestinal alkaline phosphatase activity. This effect showed dose- and time-dependency and it was caused by either in vivo dl-buthionine-S,R- sulfoximine administration or in vitro dl-buthionine-S,R-sulfoximine incubation with villus tip enterocytes. dl-Buthionine-S,R-sulfoximine did not act directly on intestinal alkaline phosphatase but it provoked glutathione depletion which led to changes in the redox state of the enterocyte as shown by the production of free hydroxyl radicals and an incremental increase in the carbonyl content of proteins. The reversibility of the buthionine sulfoximine effect on intestinal alkaline phosphatase was proved by addition of glutathione monoester to the duodenal loop.     

Taenia taeniaeformis: Gastrointestinal hyperplasia in chronically infected rats

Hyperplastic pathological changes in the gastrointestinal tract and serum gastrin levels were measured at postmortem in rats given long-term infections with metacestodes of Taenia taeniaeformis. Stomach weights were greater than in controls from the beginning of the experiment at 63 days postinfection (DPI) onward, and generally reached highest levels (>16 g) in the more chronically infected rats (up to 368 DPI). Gross and histological evidence of papillary hyperplasia of gastric mucosal cells increased with duration of infection. Intestinal weights also increased with time, but to a much lesser degree than those of the stomachs. These changes were sustained throughout the period of study, and were associated with significant elongation of villi and increased mucosal crypt depth, especially in the duodenum. In the most chronically infected rats multiple cystic dilatations of crypts occurred, and within them accumulated masses of mucus and necrotic cells often became calcified. Villi, sometimes over 1 mm in length, became club-like and frequently fused together. Mucosal mast cell (MMC) numbers in the small intestine were significantly higher than in controls throughout infection. Hyperplastic changes were detected inconsistently in the colonic mucosa, but there were no effects on the esophagus. Splenomegaly was a constant finding in infected rats, which also showed an earlier onset of thymic atrophy than normal age-matched controls. Serum gastrin levels were elevated in all affected rats at 5 months postinfection, but by the end of the first year some animals had normal gastrin levels, even though they showed severe hyperplastic gastroenteropathy at necropsy. Attempts to induce changes in gastric and intestinal weights, MMC numbers, or serum gastrin by the serial inoculation of extracts or in vitro products of T. taeniaeformis strobilocerci were unsuccessful. Surgical implantation of strobilocerci intraperitoneally also produced no measurable changes in these parameters. The results suggest that the hyperplastic stimulus provided by T. taeniaeformis is sustained for many months, and that there is a gradient of responsiveness in gastrointestinal tissues, declining from the glandular stomach mucosa posteriorly. The stimulus may be augmented by endogenous gastrin, but this hormone is not necessary for maintenance of hyperplastic changes. Our failure to induce changes in vivo artificially suggests that more subtle criteria, perhaps involving in vitro influences on gastric or intestinal cell turnover, will be necessary to establish if the parasite exerts its effects on host cells directly or indirectly.     

MicroRNA mir-16 is anti-proliferative in enterocytes and exhibits diurnal rhythmicity in intestinal crypts

Background and aims

The intestine exhibits profound diurnal rhythms in function and morphology, in part due to changes in enterocyte proliferation. The regulatory mechanisms behind these rhythms remain largely unknown. We hypothesized that microRNAs are involved in mediating these rhythms, and studied the role of microRNAs specifically in modulating intestinal proliferation.

Methods

Diurnal rhythmicity of microRNAs in rat jejunum was analyzed by microarrays and validated by qPCR. Temporal expression of diurnally rhythmic mir-16 was further quantified in intestinal crypts, villi, and smooth muscle using laser capture microdissection and qPCR. Morphological changes in rat jejunum were assessed by histology and proliferation by immunostaining for bromodeoxyuridine. In IEC-6 cells stably overexpressing mir-16, proliferation was assessed by cell counting and MTS assay, cell cycle progression and apoptosis by flow cytometry, and cell cycle gene expression by qPCR and immunoblotting.

Results

mir-16 peaked 6 hours after light onset (HALO 6) with diurnal changes restricted to crypts. Crypt depth and villus height peaked at HALO 13-14 in antiphase to mir-16. Overexpression of mir-16 in IEC-6 cells suppressed specific G1/S regulators (cyclins D1-3, cyclin E1 and cyclin-dependent kinase 6) and produced G1 arrest. Protein expression of these genes exhibited diurnal rhythmicity in rat jejunum, peaking between HALO 11 and 17 in antiphase to mir-16.

Conclusions

This is the first report of circadian rhythmicity of specific microRNAs in rat jejunum. Our data provide a link between anti-proliferative mir-16 and the intestinal proliferation rhythm and point to mir-16 as an important regulator of proliferation in jejunal crypts. This function may be essential to match proliferation and absorptive capacity with nutrient availability.     

Altered microRNAs in STHdh/Hdh cells: miR-146a targets TBP

We studied expression of 90 miRNAs in STHdh^Q111/Hdh^Q111 cells, a model for Huntington’s disease and compared with that obtained in STHdh^Q7/Hdh^Q7 cells. Fifteen miRNAs were down regulated and 12 miRNAs were up regulated more than 2-fold. Such changes were statistically significant. One hundred and forty-two genes are experimentally known targets of these altered miRNAs. It has been predicted that miR-146a may target Tata Binding Protein (TBP). Using luciferase reporter assays with 3′-UTRs of TBP, over-expression and inhibition of miR-146a, we showed that miR-146a targets TBP. Regulation of TBP by miR-146a may contribute to HD pathogenesis.     

Fine structure of the merozoites of Barroussia schneideri parasitic in Lithobius forficatus

The ultrastructure of the merozoites of the parasite Barroussia schneiden (Bütschli, 1882) Reichenow & Schellack, 1912 in the intestinal cells of its centipede host, Lithobius forficatus (L) is described. The pellicle consists of a single outer and a double inner membrane under which there are 51 microtubules extending longitudinally. A micropore is present. The characteristic organelles and cytoplasmic inclusions of the merozoites of the Eimeriidac arc present: conoid, rhoptries (possibly 6), micronemes, nucleus with nueleolus, mitochondria with bulbous cristae, prominent Golgi complex, polysaccharide granules and granular endoplasmic reticulum.     

In vitro and in vivo interaction of moxidectin with BCRP/ABCG2

The study characterizes the interaction between BCRP/ABCG2 and moxidectin by means of cellular transport, and pharmacokinetic studies in Bcrp1 (−/−) and wild-type mice. Milbemycin moxidectin ([³H]-moxidectin) was tested for its ability to be transported across MCDK-II epithelial monolayer cultures transfected with BCRP. In a second approach, accumulation assays by BCRP-expressing Xenopus laevis oocytes were carried out. Finally, pharmacokinetic studies were performed in order to establish the role of the transporter in milk secretion and tissue distribution. The efflux was negligible in polarized cells but moxidectin was efficiently transported in BCRP-expressing X. laevis oocytes. The transport was blocked by an acridone derivative, a novel BCRP inhibitor. Moxidectin secretion into breast milk was decreased in Bcrp1-knockout mice and the milk to plasma ratio was 2-fold higher in wild-type mice after i.v. administration. Drug accumulation in intestinal content, bile, and intestine was higher in wild-type mice but the plasma concentration was not different.Moxidectin is identified as a BCRP substrate since its Bcrp1-mediated secretion into breast milk and the involvement of Bcrp1 in intestinal and bile secretion has been demonstrated. This interaction has pharmacokinetic and toxicological consequences. The most important toxicological consequences of the interaction between BCRP and moxidectin may be related with the presence of drug residues in milk.     

Mdm4 loss in the intestinal epithelium leads to compartmentalized cell death but no tissue abnormalities

Mdm4 is a critical inhibitor of the p53 tumor suppressor. Mdm4 null mice die early during embryogenesis due to increased p53 activity. In this study, we explore the role that Mdm4 plays in the intestinal epithelium by crossing mice carrying the Mdm4 floxed allele to mice with the Villin Cre transgene. Our data show that loss of Mdm4 (Mdm4^intΔ) in this tissue resulted in viable animals with no obvious morphological abnormalities. However, these mutants displayed increased p53 levels and apoptosis exclusively in the proliferative compartment of the intestinal epithelium. This phenotype was completely rescued in a p53 null background. Notably, the observed compartmentalized apoptosis in proliferative intestinal epithelial cells was not due to restricted Mdm4 expression in this region. Thus, in this specific cellular context, p53 is negatively regulated by Mdm4 exclusively in highly proliferative cells.     

rgn gene is required for gut cell homeostasis after ingestion of sodium dodecyl sulfate in Drosophila

Resistance and resilience constitute the two complementary aspects of epithelial host defenses in Drosophila. Epithelial cell homeostasis is necessary for the recovery of damages caused by stress or infections. However, the genes responsible for gut epithelial homeostasis remain poorly understood. Here, we show that rgn^G4035 mutant flies have higher mortality than wild-type flies after ingestion of sodium dodecyl sulfate (SDS). Excessive melanization and increased necrotic cells in the gut contribute to the reduced survival of rgn^G4035 mutant flies following SDS ingestion. rgn mutant flies have a defect in the replenishment of intestinal stem cells (ISCs) following gut damage. The antimicrobial peptide (AMP) expression is affected in rgn^G4035 mutant fly guts. Together, our study provides evidence that rgn gene is essential for gut cell homeostasis following damage in Drosophila.     

Strongyloides ratti: Mast cell and goblet cell responses in the small intestine of infected rats

Kinetics of intestinal mast cells and goblet cells were examined in relation to worm localization at various sites in the small intestine of rats infected with 3000 filariform (stage 3) larvae of Strongyloides ratti. The most marked intestinal mastocytosis was observed on Day 20 at the anterior site of the small intestine where the majority of the worms had concentrated. The number of mast cells in the posterior small intestine increased in parallel with the posterior shift of parasites at the later stage of the infection. In contrast to the intestinal mast cell response, the number of goblet cells was not significantly affected by the infection. These results strongly suggest that intestinal mastocytosis is closely related to the presence of the worms and that mast cells may play an important role for the expulsion of S. ratti.     

Comparison of rapid expulsion of Trichinella spiralis in mice and rats

Alizadeh H. and Wakelin D. 1982. Comparison of rapid expulsion of Trichinella spiralis in mice and rats. International Journal for Parasitology12: 65–73. Primary infections of Tricliinella spiralis in both NIH mice and Wistar rats resulted in increased levels of mucosal mast cells and goblet cells. In mice the numbers of both cell types rose sharply before worm expulsion (days 8–10), remained at an increased level for a short time and declined quickly, reaching control levels on day 14 for goblet cells and between days 28 and 35 for mast cells. In contrast, in rats, the numbers of goblet cells and mast cells increased during worm expulsion and remained above control levels for a prolonged period. Challenge infections given shortly after expulsion of a primary infection (day 14) were expelled rapidly, worm loss being virtually complete with 24 h. In mice this response to challenge was short-lived and persisted only until day 16 after primary infection. After this time, challenge worms were expelled more slowly after infection. In rats the rapid expulsion response was expressed for at least 7 weeks after primary infection. Mice and rats showed differences in the conditions of infection necessary to prime for rapid expulsion, mice requiring larger and longer duration primary infections, but the expression of the response appeared to be similar in both species. In mice it was shown that rapid expulsion of T. spiralis was a response evoked specifically by prior infection with this species; infections with other intestinal nematodes had no effect. Similarly, the effect upon challenge infection was also specific to T. spiralis. The rapidity with which challenge infections are expelled suggests that either the specific inflammatory changes generated during primary infection result in an environment that is unsuitable for establishment of subsequent infections or that challenge infections provide a stimulus that can provoke an almost instantaneous response in the primed intestine. The relationship of the observed cellular changes to such mechanisms is discussed.     

The effect of lectins on the attachment and invasion of Enteromyxum scophthalmi (Myxozoa) in turbot (Psetta maxima L.) intestinal epithelium in vitro

The involvement of the lectin/carbohydrate interaction in the invasion of the turbot intestinal epithelium by Enteromyxum scophthalmi was studied in vitro using explants of turbot intestine and pre-treatment of parasite stages with the plant lectins of Canavalia ensiformis (Con A) and Glycine max (SBA). Both lectins inhibited the attachment and invasion of E. scophthalmi stages to the intestinal epithelium, though the inhibitory effect was higher for SBA than for Con A. Such results point to the involvement of N-acetyl-galactosamine (GalNAc) and galactose (Gal) residues and also of mannose/glucose residues in the E. scophthalmi-intestinal epithelium interaction. The inhibitory effect of both lectins on the parasite adhesion and penetration points to the interest of further studies to confirm the presence of putative lectins recognising GalNAc-Gal and mannose/glucose residues in turbot intestine. The obtained results demonstrated also the adequacy of turbot intestinal explants as an in vitro model to study the interaction with E. scophthalmi.     

Developing an in vitro method for Eimeria tenella attachment to its preferred and non-preferred intestinal sites

A frozen section method utilising chicken intestinal tissue was developed to study the Eimeria tenella attachment ex vivo. In order to examine Eimeria-epithelial cell attachment, 10⁵E. tenella sporozoites were incubated with each caecal frozen section (6, 10 and 14 μm) for 1 h in 5% CO₂ incubator at 41 °C. E. tenella sporozoites attached successfully to enterocytes in 14 μm thick of caecal sections. Sporozoite attachment to caecal sections was shown to be dependent on the number of parasites added. To evaluate the method, E. tenella sporozoites were incubated to its preferred (caecum) and non-preferred (duodenum and jejunum) intestinal sites. The number of sporozoites attached to the caecal enterocytes was significantly greater (P < 0.0001) in comparison with the limited number of sporozoites attached to enterocytes of non-preferred intestinal sites. This method was shown to be able to reveal differences in binding capability and allows for comparison of intestinal site attachment.     

The fate of exotoxin of Bacillus thuringiensis in Galleria mellonella caterpillars

Three hours after parenteral administration of ³²P-labeled exotoxin of Bacillus thuringiensis to caterpillars of Galleria mellonella, 80% of the radioactivity was localized in the hemolymph in the form of the original exotoxin. The remaining radioactivity occurred in the organs of the caterpillar, especially in the spinning glands and the intestine. After peroral administration, the exotoxin does not pass the intestinal wall into the hemolymph to a measurable degree. In this case, the exotoxin is split in the intestinal wall and the products of ³²P reutilization have been found in the hemolymph. The mechanism of action of the exotoxin in the insect organism is discussed; presumably it depends on different ways of administration of the substance.